Ion Transport in Prokaryotes

Author: Rosen   Barry P.;Silver   Simon  

Publisher: Elsevier Science‎

Publication year: 2014

E-ISBN: 9781483272122

P-ISBN(Paperback): 9780125969352

P-ISBN(Hardback):  9780125969352

Subject: Q936 microbial biochemistry

Language: ENG

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Description

Ion Transport in Prokaryotes provides an advance treatise on ion transport and prokaryotic organisms.

This book is divided into three main topics—cation transport systems, anion transport systems, and plasmid-encoded transport systems. This compilation specifically discusses the proton transport and proton-motive force in prokaryotic cells, potassium transport in bacteria, and bioenergetic functions of sodium ions. The calcium transport in prokaryotes, phosphate transport in prokaryotes, and transport of organic acids in prokaryotes are also elaborated. This text likewise covers the chloride, nitrate, and sulfate transport in bacteria and bacterial magnesium, manganese, and zinc transport.

This publication is recommended for biologists, specialists, and students interested in the bacterial ion transport system.

Chapter

Front Cover

Ion Transport in Prokaryotes

Copyright Page

Table of Contents

Preface

Part I: Cation Transport Systems

Chapter 1. Proton Transport and Proton-Motive Force in Prokaryotic Cells

I. INTRODUCTION

II. GENERATION OF ∆p IN PROKARYOTIC CELLS

III. PROTON-TRANSLOCATING ATPASE (H+-ATPASE)

IV. PROTON-TRANSLOCATING ELECTRON TRANSFER CHAINS, INORGANIC PYROPHOSPHATASE, AND BACTERIORHODOPSIN

V. PROTON–SOLUTE COTRANSPORT SYSTEMS

VI. UTILIZATION OF ∆p IN PROKARYOTES OTHER THAN FOR ATP SYNTHESIS AND ACTIVE TRANSPORT

VII. SUMMARY

VIII. RECENT DEVELOPMENTS

ACKNOWLEDGMENTS

REFERENCES

Chapter 2. Potassium Transport in Bacteria

I. INTRODUCTION

II. STREPTOCOCCUS FAECALIS

III. ESCHERICHIA COLI

IV. CYANOBACTERIA

V. LESS FREQUENTLY STUDIED SPECIES

VI. SUMMARY AND CONCLUSIONS

REFERENCES

Chapter 3. Bacterial Sodium Transport: Bioenergetic Functions of Sodium Ions

I. INTRODUCTION

II. Na+AS A SECONDARY COUPLING ION

III. Na+ AS THE PRIMARY COUPLING ION

IV. CONCLUSIONS

REFERENCES

Chapter 4. Bacterial Magnesium, Manganese, and Zinc Transport

I. INTRODUCTION

II. MAGNESIUM TRANSPORT

III. MANGANESE TRANSPORT

IV. ZINC TRANSPORT

V. NICKEL TRANSPORT

VI. CADMIUM TRANSPORT

VII. EPILOGUE

ACKNOWLEDGMENTS

REFERENCES

Chapter 5. Calcium Transport in Prokaryotes

I. INTRODUCTION

II. SECONDARY TRANSPORT SYSTEMS

III. PRIMARY CALCIUM TRANSPORT SYSTEMS

IV. CONCLUSIONS

REFERENCES

Part II: Anion Transport Systems

Chapter 6. Phosphate Transport in Prokaryotes

I. INTRODUCTION

II. PHOSPHATE TRANSPORT SYSTEMS OF ESCHERICHIA COLI

III. PHOSPHATE TRANSPORT IN OTHER BACTERIA

IV. GENETIC STUDIES AND THE IDENTIFICATION OF COMPONENTS OF THE PHOSPHATE TRANSPORT SYSTEMS

V. TRANSPORT OF SOME PHOSPHATE ESTERS

VI. THE Pst SYSTEM AS AN INTEGRAL PART OF THE pho REGULON OF ESCHERICHIA COLI

ACKNOWLEDGMENTS

REFERENCES

Chapter 7. Chloride, Nitrate, and Sulfate Transport in Bacteria

I. INTRODUCTION

II. SULFATE TRANSPORT IN SALMONELLA TYPHIMURIUM

III. SULFATE TRANSPORT IN DESULFOVIBRIO VULGARIS

IV. SULFATE TRANSPORT IN PARACOCCUS DENITRIFICANS

V. NITRATE TRANSPORT IN DENITRIFYING BACTERIA

VI. CHLORIDE TRANSPORT IN HALOBACTERIA

REFERENCES

Chapter 8. Transport of Organic Acids in Prokaryotes

I. INTRODUCTION

II. MONOCARBOXYLATE TRANSPORT

III. DICARBOXYLATE TRANSPORT

IV. TRICARBOXYLATE TRANSPORT

REFERENCES

Part III: Plasmid-Encoded Transport Systems

Chapter 9. Plasmid-Encoded Ion Transport Systems

I. ARSENATE TRANSPORT

II. CADMIUM EXTRUSION

III. CITRATE TRANSPORT

IV. IRON TRANSPORT

V. MERCURY(II) UPTAKE SYSTEM

VI. SUMMARY

REFERENCES

Index

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